Variable timed release for registers controlled by register group busy means



Feb. 20, 1951 J. w. DEHN EIAL 2,542,800

VARIABLE TIMED RELEASE FOR REGISTERS CONTROLLED BY REGISTER GROUP BUSY uEms Filed 001:. 29, 1948 8 Sheets-Sheet 1 ":2". 8 QINI': III

' J. W. DEHN INVENTORS R. EJIERSEY A. QUE/ RING ATTORNEY Feb. 20, 1951 J w. DEHN ETIAL- 7 2,542,800

VARIABLE TIIIED RELEASE FOR REGISTERS CONTROLLED BY REGISTER GROUP BUSY IEANS 8 Sheets-Sheet 2 Filed 001;. 29, 1948 A .C.MEHIPIN6 ATTORNEY J. wosmv INVEN TORS aahsnse'v V1 0 a 5 Y6 N w t w R 9 HSR m 2 n H T M Qw DEE A s mfiu 2 a J.c. D m R m s A m 8 m a N 0 w m 9 S E v. v 8

J. .W. DEHN ET AL VARIABLE TIMED RELEASE FOR REGISTER BY REGISTER GROUP BUSY MEANS 9 l 5 n w w 0 t. 2 W

w m F F Feb. 20, 1951 DEHN ETAL 2,542,800

' J. W. ARIABLE TIMED RELEASE FOR REGISTERS CONTROLLED BY REGISTER GROUP BUSY MEANS Filed Oct. 29, 1948 8 Sheets-Sheet 4 T0 MARKER CONNICTGA' J. n: DEHN INVENTORS REHERSEY A.C.MEHP/NG BY @QM ATTORNEY Feb. 20, 1951 J w DEHN ETAL 2,542,300

VARIABLE TIRED RELEASE FOR REGISTERS CONTROLLED BY REGISTER GROUP BUSY IEANS Filed Oct. 29, 1948 8 Sheets-Sheet 5 GJNNECTJR "we M ATTORNEY Y 0 w 6 a re m 2 M N -m T m w m" A e a n v 8 A O y m 6 T w B w J. w. DEHN ETA L VARIABLE TIMED RELEASE FOR REGISTERS CONTROLLED Feb. 20, 1951 BY REGISTER GROUP BUSY MEANS Filed 001;. 29, 1948 Feb. 20, 1951 VARIAB Filed Oct. 29, 1948 J. w. DEHN ETAL 2,542,800 LE 'muzn RELEASE FOR REGISTERS comoman BY REGISTER GROUP BUSY umus 8 Sheets-Sheet 7 J. W DEH/V INVENTORS REHE'RSEY A. CHE/ RING ATTORNL Feb. 20, 1951 J w. DEHN ETAL 2,542,800

VARIABLE TIMED RELEASE FOR REGISTERS CONTROLLE BY REGISTER GROUP BUSY MEANS Filed Oct. 29, 1948 8 Sheets-Sheet 8 mm W J. U! DEHN INVENTORS REHEPSEY A. C. HEMP/N6 "@asm'u.

ATTORNEY Patented Feb. 20, 1951 UNITED STATES PATENT OFFICE VARIABLE TIMED RELEASE FOR REGISTERS CONTROLLED BY REGISTER GROUP BUSY MEANS ration of New York Application October 29, 1948, Serial No. 57,399

7 Claims. (Cl. 179-18) This invention relates to telephone systems in which connections between subscribers lines are established by automatic switching equipment and more particularly to a timing circuit arranged, under overload conditions when an all register'busy condition is encountered, for reducing the partial dial interdigital and permanent signal timing periods whereby the holding time of the registe is reduced and the register is sooner made available for service on awaiting calls.

The invention is specifically applicable to a system of the cross bar type such as is disclosed in the application of A. J. Busch, Serial No. 57,394, filed concurrently herewith.

In a system of this type when a subscriber originates a call, a marker is associated with his line over a marker connector and in responding to the call establishes a connection from the calling line through the primary and secondary cross bar switches of the line-link frame on which the calling line terminates and the primary and secondary switches of a trunk-link frame to an idle dial pulse originating register circuit. Each register has a tip, ring and sleeve appearance on a trunk-link frame just as a trunk does and the operation of selecting a register and connecting a calling line to it is the same as selecting a trunk and connecting a line to it. These selecting functions, as carried out by the marker, have been described in the application of R. E. Hersey Serial No. 57,397, filed concurrently herewith. This connection between the calling line and register is called the dial tone connection and gets its name from the fact that dial tone is supplied to the calling line over this connection when the register is ready to receive dial pulses.

While the marker is in the process of establishing this dial tone connection, it records certain information concerning the calling line on memory relays in the register because the marker which sets up the originating connection from the calling line to a trunkwill need this information. This information is passed to the register by way of the trunk-link and connector circuits. This information consists of the class of the calling line, the location of the line on line switches of the line-link frame and the line-link used in transmits ,dial tone to the calling line to inform the subscriber that he may proceed to dial the digits of the wanted line designation. The impulses of each dialed digit are counted in the register and a plurality of registers are set in response to the counting of the impulses of successively dialed digits to register the digits of the desired connection.

A register timing circuit is provided in the originating register which measures time for the important functions of the register to be completed. If a function is completed in the time allowed, the timer resets itself and measures time for the next function. If the function is not completed in the time allowed, the timer times out and causes the register to take theappropriate action. If the timer times out awaiting the dialing of a first digit, it engages a marker and requests a connection to a permanent signal trunk. If the timer times out awaiting the dialing of other digits, as on a partially dialed call, it engages a marker and requests a connection to a partial dial trunk. The time out intervals are normally from 20 to 35 seconds. When however the traiiic load in the oflice is heavy and the marker encounters a condition where no idle registers are available, it becomes desirable to reduce these timing intervals to a minimum in order that the registers may be dismissed more quickly and made available for awaiting calls.

It is therefore the object of the present invention to reduce the time intervals normally measured while awaiting the dialing of a first or subsequent digits.

For measuring the timing intervals for the important functions of the register, a condenser resistance timing circuit is provided the resistance of which may be altered to determine the different time intervals required to charge the condenser. The condenser is associated with the control gap circuit of a gas-filled tube so that when the condenser becomes charged to the breakdown potential of the tube, the tube fires to cause the operation of a relay connected into its main cathode-anode circuit to indicate the termination of the measured time interval.

To-attain the aforesaid object of the invention, a relay is associated with the register timing circuit which is operated under the control of an associated group busy circuit when a marker finds all registers to be busy, which relay changes the resistance in the charging circuit of the condenser so that in measuring the interval while the register is awaiting the dialing of a first digit, the measured charging time will be reduced from Fig. 'I show such portions of an originating reglater as are deemed necessary to fully illustrate the invention;

Fig. 7 in the lower portion thereof shows a group busy circuit common to a plurality of registers;

Fig. 8 shows a tramc register circuit allocated to a marker group; and

Fig. 9 is a diagram showing how the other flsure of the drawing should be arranged for a complete disclosure of the invention.

Of the figures ofthe drawings above-enumerated which disclose the originatirm register, Fig. 1 shows a portion of the register control relays and related circuits, Figs. 2, 4, and 6 show the dial pulse registers and steering relay therefor, Fig. 3 shows the dial pulse counting relays and circuits, Fig. 5 shows the register timing and marker selection circuits and Fig. 7 shows in the upper portion thereof the digit timing circuit.

The invention having been set forth in a general manner, will now be considered in detail with reference to the drawings. It will be assumed that in the manner fully set forth in the application of A. J. Busch, hereinbefore referred to, a

marker taken into use by the initiation of a call by a calling subscriber has tested to find an idle originating register and has determined that the register disclosed in part herein is idle as will be indicated by the unoperated condition of the ON relay I00. Therefore, battery at the marker through-the winding of a trunk test relay will be applied through the trunk-line connector, over which the marker has access to the ori inatin register, to conductor IN and ground will be applied through the connector to conductor I02 7 thereby completing a circuit from battery on conductor IOI, through the winding of the F relay |03,over the upper No. 1 back contact of the ON relay I 00, conductor I04, the upper No. 3 back contact of the PD relay 500, the upper No. 4 back contact of the TMI relay 50l, conductor I05, the lower No. 1 back contact of the MB relay I00 and over conductor I02 to ground at the marker. Relay I03 thereupon operates and locks over its upper No. 2 contacts to ground on conductor I02 so that the continued operation of such relay is dependent entirely upon the marker. Relay I03 also establishes a circuit from ground at the marker, over conductor I01 and its lower No. 1 contacts, through the winding of the SI relay I03 to battery. Relay I08 thereupon operates and over its lower No. 1 contacts establishe an obvious circuit for the ON relay I00.

The SI relay I 08 at its upper No. 2 contacts and the ON relay I00 at its upper No. 3 contacts, connects ground to the of! normal ground conductor I00 thereby establishing a circuit through the lower biasing winding of the L relay IIO and throughresistorlll to battery whereby the armature of this polarized relay is biased against its back or left contact. The connection of ground to conductor I09 is also effective to establish a circuit over the upper No. 2 back contact of the RA relay 300 and through the winding of the RAI relay "I to battery whereupon relay 30I operates. The ON relay I00 also connects ground over its upper No. 2 contacts and conductor I I2 to the armature of the L relay I I0 but with such armature biased against its left or back contact, the connection of such ground cannot be effective to establish the operating circuit through the winding of the LA relay 302 and the winding of the SR relay I I3, which if operated might produce a false pulse.

The ON relay I00 at its upper No. 1 back contact opens the initial operating circuit for the F relay I03 but as previously stated relay I03 upon operating has locked itself under the control of the marker.

The ON relay I00 upon operating also initiates the operation of the register timing circuit of Fig. 5 by connecting ground over its lower No. 2 contacts to conductor Ill thereby establishing a circuit over the upper back contact of the TMB relay 502 and through the upper winding of the TMA relay 503 to battery. Relay 503 thereupon operates and establishes a locking circuit for itself from battery through its lower winding and inner lower contacts and an operating circuit from battery through the winding of relay 502, over its lower contacts, conductor 504, the lower No. 2 contacts of the RAI relay 30I, conductor 303, the lower back contact of the MST relay 505 and to ground over conductor Ill or in parallel from its lower No. 1 contacts over the upper No. 2 back contact of the PD relay 500, the lower back contact of the MST relay 505 and to ground on conductor III. Relay 503 thereupon operates and at its upper back contact opens the initial operating circuit of relay 503. Relay 503 upon operating opens at its upper back contact a discharge path for condenser 506 through resistor 501 and at its upper front contact establishes a charging path for condenser 505 extending from the source 508 of positive potential, through resistor 509, over the back contact of the OVL relay 5|0, through resistor 501, condenser 505, over the upper front contact of relay 503 and to ground through the winding of the TM relay 5| I. The condenser 506 charges in this circuit but relay 5| I does not operate, The condenser charges at a rate determined by the values of resistors 501 and 503 until it becomes charged, at which time the positive potential applied from source 500 through resistors 503,501, and 5|2 to the control cathode 5|3 of tube 5 will reach such a value that the tube will break down across its control gap between cathodes 5 I 3 and 5 I 6, whereupon the TM relay 5| I will operate in a path from the source 508, acros the main gap of the tube between cathode 5|5 and the anode 5|6, over the upper front contact of relay 503 and to ground through the winding of relay 5| Relay 5 is thus operated a time interval following the operation of relay 503 for a purpose to be later described unless the holding circuit for relay 503 is opened before the completion of the timing cycle. If the circuit of relay 503 is thus opened and relay 503 releases, it opens the charging pathof condenser 508 at its upper front contact and at its upper back contact closes the discharge path for the condenser. Relay 502 which starts its release at the time the locking circuit of relay 503 is opened, is made sufllciently slow to release so that it will not reclose the initial operating circuit of relay 503 until the condenser 506 has become substantially discharged.

The marker following its seizure by the call ing line secures the location of the calling line on the line-link frame and the class of the calling line and in accordance with the information received with respect to the calling line locatlon, proceeds to establish a connection between the selected register and the calling line over switches of the trunk-link frame and switches of the line-link frame on which the calling line terminates. The marker also proceeds to transmit the class information to the register.

The marker after transmitting the necessary information to the register, releases the F relay I03 whereupon the register is disconnected from the common leads of the trunk-link and connector circuits so that the leads may be used for other calls and the trunk-link frame relay (not shown) which has'been operated from ground over the upper No. 1 contacts of the'F relay I03 transfers the tip, ring and sleeve conductors of the dial tone connection to the corresponding conductors H5, H6, and I" of the register. The N relay I00 being operated connects ground over its upper No. contacts and the lower No. 2 back contact of the RL relay II8, through the low resistance H3 to the sleeve conductor II'I thereby holding the dial tone connection.

A circuit is now effective for operating the L relay IIO which may be traced from battery over the upper normal contacts of jack I20, through the middle winding of relay IIO, over the middle normal contacts of jack I20, through the upper left winding of the dial tone coil I2I, the lower No. 1 back contact of the RL relay II8, over the ringconductor I I6, thence over the calling line loop and returning over the tip conductor II5, the upper No. 3 back contact of relay H8 and to ground through the lower left winding of dial tone coil I2I.

The current flowing through the middle winding of relay IIO now overcomes the effect of current flowing through the lower biasing winding and relay IIO operates its armature into engagement with its right or front contact and, with ground connected to its armature as previously described, completes a circuit extending over conductor I22, through the winding of the LA relay 302, conductor I23, and through the winding of the SR relay 3 to battery. Relay I I3 operates and establishes a circuit from ground over its inner upper contacts and through the winding of the ONI relay I24 to battery, whereupon relay I24 operates, looks over its upper No. 1 contacts to ground over the upper No. 2 back contact of the RL relay II8, supplies off-normal grounds for'the'register and over its lower No. 1 contacts establishes a holding circulit for the ON relay I00. The SI relay I08 which started to release following the release of the F relay I03, being slow to release does not release to open the circuit of the ON relay I00 before the ONI relay I24 has operated to prepare the holding circuit for relay I00.

6 ground has been applied over the upper No. 4 contacts of the ON relay I00.

The SR relay II3 upon operating is also efiective to connect dial tone supply over the upper No. 1 contacts of the P2A relay 304, conductor I21, the upper contacts of relay M3, the upper No. 1 back contact of the MAN relay I28, conductor I28, the lower back contact of the BT relay 5", conductor I30, condenser I3I, and through the right winding of 'the dial tone coil I2I to ground whereupon a dialing tone signal is transmitted to the calling line. The subscriber hearing this tone commences to dial the digits of the number of the desired connection.

It will first be assumed that the subscriber desires a connection with a line whose directory number is SH-3156 and dials the first code letter S which has a numerical equivalent '7. On the first opening of the line loop, the L relay II 0 releases thereby opening the circuit previously traced through the windings of the LA relay 302 and the SR relay H3. The SR relay H3 is slow in releasing and holds operated during the momentary openings of the right contacts of relay I I0 but relay 302 follows relay I I0 releasing when relay IIO releases and reoperating when relay H0 reoperates. The LB relay 305 in turn follows the LA relay 302, its operating circuit ex- Relay I24 upon operating establishes a circuit from ground over its lower No. 4 contacts, conductor I25, the upper No. 3 back contact of the P2A relay 304, conductor 3I8 and through the winding of the AS steering relay 400 to battery, whereupon relay 400, which is the first of a group of seven steering relays which function to control the successive operation of the group of register relays shown in Figs. 2, 4, and 6, becomes operated. Relay 400 upon operating locks in a circuit over its lower No. 1 contacts, the lowor No. 1 back contact of the BS relay 40I and ofl-normal ground conductor I26, to which tending from battery through its winding, over the front contact of relay 302, conductor 320, the upper No. 6 contacts of the ONI relay I24 and to ground over the upper No. Z'contacts of the ON relay I00. When the first dial pulse occurs and the LA relay 302 releases, a circuit is established from battery through the lower winding of the RA relay 300 and the back contact of relay 302 to ground on conductor 320 and relay 300 operates and being slow to release, because of its upper short circuited winding, remains operated during the train of pulses but will release when relays H0 and 302 remain operated at the end of the train of pulses. When relay 300 operates, it supplies holding ground from conductor 320, over its lower No. 2 contacts for the LC relay 306, LD relay 301 and LE relay 308. Due to the fact that the RA relay 300 is somewhat slow in operating as well as in releasing, the LB relay 305 is arranged to close this holding circuit over its back contacts until the RA relay 300 has had time to operate.

The RAI relay 30I which operated as soon as the register was seized by a marker, provides temporary holding circuits for the PI to P6 relays 3 to 3I6 inclusive. When the RA relay 300 operates, relay 30I releases partly closing the operating c rcuits of the even P2, P4 and P6 relays and closing the locking circuit for all rclays PI to P6 inclusive. With relay 300 operated and relay 30I released, the register is ready to count dial pulses. On each closure of the left or back contact of the L relay IIO, a circuit is established from ground on conductor II2, over such contacts, the inner lower contacts of the SR relay 3, conductor I32, the upper back contact of the MSTI relay 5I8, conductor SI! and to the contacts of the LE relay 308. The

first release of the L relay H0 in response to the first impulse, therefore completes a circuit over the upper back contact of the LE reay 308, and through the winding of the LC relay 306 to battery. Relay 306 thereupon operates and locks in a circuit ,through the lower winding of the LE relay 308,} the back contact of the LD relay 301, the upper contact of relay 306, conductor I", the lower No. 2 contacts of relay 300 auaeoc and to ground on conductor 320. Relay 303 does not, however, operate in this locking circuit because until relay 110 reoperates its lower winding is shunted. When, however, relay 110 reoperates, relay 308 operates. On the next release of relay 110 in response to a second dial pulse, ground is again applied to conductor 519 and a circuit is completed over the inner upper contacts and through the upper winding of LE relay 308 and to battery through the upper winding of the LD relay 301. Thereupon relay 301 operates and relay 308 is held operated. Relay 301 upon operating opens the holding circuit of the LC relay 306 extending as traced through the lower winding of relay 303 and relay 308 thereupon releases but relay 308 remains operated over its upper winding in the operating circuit of relay 301. When the L relay 110 reoperates, the circuit traced through the upper winding of relay 308 and the upper winding of relay 301 is opened and relay 308 releases but relay 301 is maintained operated over a lockin circuit which extends from battery through its lower winding and lower contacts to the lower contacts of the LC relay 306 so that relay 301 will keep the c'rcuit over its upper contacts to the lower winding of relay 308 open until it'has released. On the next or third impuse the release of the L relay 110, ground applied to conductor 519 is effective to again operate the LC relay 306 and the cycle will be repeated. Pulses 1, 3, 5, 1, and 9 will thus cause the LE relay 308 to operate and pulses 2, 4, 6, 8, and will cause relay 308 to release.

The first time that the LE relay 308 operates, it establishes a circuit from ground applied from conductor 320, over the lower contacts of the RA relay 300 to conductor 311, thence over the lower contacts of relay 308 to conductor 309, thence over the lower back contact of the P4 relay 314, the lower back contact of the P2 relay 312, the upper No. 2 back contact of the P3 relay 313, the upper back contact of the P5 relay 315 and through the lower winding of the P1 relay 311 to battery. Relay 311 thereupon operates and locks in a circuit from battery through its upper winding and upper No. 1 contacts, the inner upper normal contacts of the P2 re'ay 312, the inner lower normal contacts of the P3 relay 313, the inner upper normal contacts of the P4 relay 314, the inner lower normal contacts of the P5 relay 315, conductor 310 and the upper No. 1 back contact of the RAI relay 301 to ground on conductor 320.

When the LE relay 308 releases in response to the second pulse, ground is connected from conductor 311, over its inner lower back contact and the lower No. 1 back contact of the RAI relay 301 to conductor 318- and, with the P1 relay 311 operated, a circuit is completed over the lower No. 2 contacts of relay 311 and through the winding of the P2 relay 312 to battery and in parallel over the lower N0. 1 normal contacts and through the winding of the P2A relay 304 to battery. Relay 312 thereupon operates and looks over its inner upper alternate contacts and as previously traced over the locking circuit to ground on conductor 310 and at its inner upper' normal contacts opens the locking circuit of the P1 relay 311 which thereupon releases. Relay 300 also operates and locks over its lower No. 1 alternate contacts to ground on conductor When the LE relay 308 again operates in response to the third pulse and connects ground to conductor 309, a circuit is completed over the lower back contact of the Pl relay 314, over the lower front contact of the P2 relay 312 and through the winding of the P3 relay 313 to battery. Relay 313 thereupon operates and locks over its inner lower alternate contacts and the locking circuit previously traced to ground on conductor 310 and at its inner lower normal contacts opens the locking circuit of the P2 relay 312 which new releases.

0n the fourth pulse when the LE relay 303 again releases and applies ground to conductor 318, a circuit is established over the lower contacts of the operated P3 relay 313 and through the winding of the P4 relay 310 to battery and relay 310 operates and looks over its inner upper alternate contacts and over the locking circuit previously traced to ground on conductor 310 and at its inner upper normal contacts opens the locking circuit for the P3 relay 313 which new releases.

On the fifth pulse when the LE relay 308 again operates and applies ground to conductor 309, a circuit is established over the lower front contact of relay 314 and to battery through the winding of the P5 relay 315 and the latter relay thereupon operates, locks over its inner lower alternate contacts to ground on conductor 310 and at its inner lower normal contacts opens the locking circuit of the P4 relay 314 which now releases.

On the sixth pulse when LE relay 3'08 again releases and connects ground to conductor 318, a circuit is completed over the lower contacts of relay 315 and through the lower winding of the P6 relay 316 to battery and the latter relay now operates and looks through its upper winding and over its inner upper contacts to ground on conductor 310 and over its inner lower contacts establishes an obvious circuit through the winding of the PSA relay 321 to battery and the latter relay then operates. It is to be noted that the operation of the P6 relay 316 has not caused the release of the P5 relay 315.

On the seventh pulse when the LE relay 308 again operates and connects ground to conductor 309, a circuit is established over the lower back contact of the P4 relay 314, the lower back contact of the P2 relay 312, the upper No. 2 back contact of the P3 relay 313, the upper No. 3 contacts of the P6 relay 316 and to battery through the lower winding of the P1 relay 31 1. Relay 311 thereupon operates, locks through its upper winding and over its No. 1 contacts, the inner upper normal contacts of the P2 relay 312, the inner lower normal contacts of the P3 relay 313, the

. upper No. 3 contacts of the P1 relay 31 1, the upper No. 2 contacts of the P6 relay 316 to ground on conductor 310 and at its lower back contact opens the circuit of the P5 relay 315 which now releases.

Should there be an eighth pulse, then when the LE relay 3011 again releases and connects ground to conductor 318, a circuit is established over the lower No. 2 contacts of the P1 relay 311 through the winding of the P2 relay 312 to battery and relay 312 operates, looking over its inner upper alternate contacts and the locking circuit just traced to ground on conductor 310 and at its irmer upper normal contacts opens the locking circuit of relay 311 which now releases.

Should there be a ninth pulse, then when relay 308 again operates and connects ground to conductor 309, a circuit is established over the lower back contact of the Pl relay 314, the lower front contact 01' the PI relay III and to battery through the winding of the PI relay III whereupon relay III operates. locks over its inner lower alternate contacts and thence as previously traced to' ground on conductor III and at its inner lower normal contacts opens the locking-circuit of the PI relay III which now releases.

Should there be a tenth pulse, then when the LE relay III again releases it will connect ground to conductor III and establish a circuit over the lower contacts of the PI relay III and through the winding of the PI relay III to battery and relay III will operate, look over its inner upper alternate contacts and the inner lower normal contacts of the PI relay I I I to ground on conductor III and open at its inner upper normal contacts the locking circuit of the PI relay II I which will then release. The following table shows the relays operated after any pulse:

The pulse counting will of course stop when the dial reaches its normal position so that any P relay or relays may remain operated asshown in the preceding table.

When a train of pulses for a digit ends, the L relay III and LA relay III remain operated and the RA relay III releases thereby causing the reoperation of the RAI relay III. Relay III at its lower No. 1 and upper No. 1 back contacts now closes paths through the contacts of the PI to PI and PIA relays to two of leads I, I, I, I, and I according to the pattern in the preceding table. The operation of the RAI relay III at its upper No. 1 back contact removes ground from conductor III thereby releasing any operated P relays and thereby removing ground from the two selected leads. During the operate time of relay III and the release time of the P relays, a pair of the register relays of Figs. 2, 4 or 6 will be oper- A digit register III until relay III operates, iollowing the transmission of two pulses, a single pulse digit or series oi single pulse digits will not affect the A digit register and a wrong number will not be registered it the calling subscriber accidentally generated a single pulse by opening the switchhook contacts before dialing.

It has been assumed that the calling subscriber has operated his dial to transmit seven pulses for the first code letter S. Consequently at the end of the series of seven pulses. the PI, PI and PIA pulse counting relays III, III and III are operated and upon the release or the RA relay III at the end of the pulse series, ground is applied from conductor III over the lower No. 1 back contact oi relay III, the lower No. I contacts of the PI relay III, the I lead, the upper No. 1 contacts oi the EV relay III, the upper No. 1 contacts of the AS relay III, conductor III and through the winding 0! the AI relay of the A digit register III to battery, and ground is applied from conductor III over the upper No. 1 back contact of relay III, the upper No. 2 contacts of the PI relay III, the lower No. 2 front contact of the PIA relay III, lead I, the upper No. 5 contacts 01' the EV relay III, the upper No. 5 contacis of the AB relay III, conductor Ill and through the-winding oi the Al relay of the register III to battery. Thus relays AI and Al of the register III have been operated to register the first code letter 8. Upon operating, these relays look over their upper contacts to 03 normal ground conductor III to which ground was applied over the upper No. 5 contacts of ONI relay III.

When the RAI relay III operates at the end 01' the pulse series, ground is removed at its upper No. 1 back contact from conductor III thereby releasing the operated P relays, in the case assumed the PI, PI and PIA relays III, III and III. Relay III connects ground from conductor III, over its upper No. 2 contacts, conductor III, the lower No. 4 contacts of the EV relay III, the lower No. 3 contacts and through the winding of the AS relay III to battery for holding the relay III operated after the BS relay III operates and until the commencement of the counting of the next digit series, and applies ground from ated corresponding to the digit being registered.

The leads I, I, I, I, and I will be extended to the groups of five relays of the registers in sequenc as will now be described.

When the PIA relay III operated as previously described in response to the second dial pulse, it opened at its upper No. 1 back contact the previously traced circuit through the right winding of the dial tone coil III to stop the transmission of dial tone; opened at its upper No, 3 back contact the initial operating circuit of the AS relay III and established the circuit of the EV relay III which may be traced from battery through the winding of such relay, over the lower No. 1 back contact of the OD relay III, the lower No. 4 contacts of the AS relay III, conductor III and to ground over the upper No. 2 contacts of relay III. Relay III upon operating, connects the I, I, I, I, and I digit leads over its upper contacts, the upper contacts of operated AS steering relay III and other conductors to the windings of the relays AI, Al, A2, AI, and A! of the A digit register III shown in Fig. 6. Since the five leads cannot be extended to the relays oi the (4,5 Ila-Qt. the inner conductor III over its upper No. 3 contacts, conductor III, the lower No. 2 contacts of the EV relay 'III and the lower No. 2 contacts of the AS relay III through the winding of the BS relay. III to battery. Relay III thereupon operates" and looks over its lower No. 2 contacts and the lower No. 1 back contact of the CS relay III to round on conductor III preparatory to registering the second dialed digit. When the second digit is dialed the RAI relay III releases at the beginning of the second digit series and opens.

the locking circuit for the AS relay III and the? initial energizing circuit for the BS relay III. Relay III upon releasingopens the circuit of the- EV relay III which now releases and with the BS relay III now locked operated, a circuit is established from battery through the winding oi the OD relay III, the lower No. 1 back contact oi relay III and the ground over the lower No. 4 contacts of relay III.

It has been assumed that the calling subscriber dials a second code letter H which has the numerical value 4 and that consequently the PI counting relay III is operated and locked at the end of the pulse series. At the end of the pulse series the RA relay III. releases and connects ground from conductor I I9, over its lower No. 1 back conlower front contact of the PI relay m, the lower No. 1 back contact of the PEA relay 32!, lead 0, the upper No. 1 contacts of the OD relay 404, the upper No. 1 contacts of.

the BS relay 40!, conductor 420 and through the winding of the B relay of the B digit register 6I0 to battery, and connects ground from conductorv I00, over its upper No. 1 back contact, the upper contacts of the P4 relay 3, lead 4, the upper No. 4 contacts of the 0D relay 404, the upper No. 4 contacts of the BS relay 40!, conductor 424, and

, through the winding of the B4 relay of the B digit When the RAI'relay 30! operates at the end of the pulse series, round is removed at its upper No. 1 back contact from conductor 3I0 thereby releasing the operated P4 relay 3! 4. Relay 30! also, connects ground to conductor 322 thereby establishing a circuit over the lower No. 4 contacts of the 0D relay 404 and the lower No. 5 contacts of the BS relay 40! to hold relay 40! operated when its initial holding circuit is opened by the operation of the CS relay 402, and ground applied to conductor 323 establishes a circuit over the lower No. 2 contacts of relay 404, the lower No. 3 contacts of the BS relay 40! and through the winding of the CS relay 402 to battery whereupon relay 402 operates and looks over its lower No. 2 contacts, conductor 400 and the lower No. 1 back contact of the DS relay 200 team I, I, 2, 4, and 1 are extended to the B, D or 1"- digit registers N0, 450, and 250, respectively, and that with the AS, CS, ES and GSfrelays 400, 402, 20! or 203 operated together with the EV relay 403, the leads 0, I, 2, 4, and 1 are extended to the A, C, E, and G digit registers 620, 430 or y 200, respectively. Under the assumption made, relays D0 and D! of the D digit register 450 are operated to register the fourth dialed digit 1, relays E! andE4 of register 430 are operated to register the fifth dialed digit 5 and relays F2 and F4 of the F register 250 are operated to register the sixth dialed digit 6. These registrations are made in the manner previously described.

On the call previously assumed the register does not-know if a seventh digit is to be dialed, as for example, on a call involving a stations digit, and therefore it must wait for such a possible digit before calling in a marker to complete the connection. For this purpose the DL punching at the left of Fig. 2 is cross-connected to the F punching. When therefore the GS relay 203 operates at the end of dialing the sixth digit preparatory to controlling the registration of a possible seventh digit, a circuit is established from ground over the upper No. 6 contacts of to ground on conductor I26 preparatory to registering a third dialed digit. When the third digit is dialed, the RA! relay 30! releases at the beginning of the third digit series and opens the locking circuit for the BS relay 40! and the initial energizing circuit for the cs relay 402.

Relay 40! upon releasing op ns the circuit of the OD relay 403 which now releases and with the CS relay 402 now locked operated a circuit is established from battery through the winding of the EV relay 403, the lower No. 1 back contact of relay 404 and to ground over thelower No. 4 contacts of the CS relay 402.

It has been assumed that the calling subscrib r dials a third di it 3 and that conseouently the P3 counting relay 3I3 is operated and locked at the end of the pulse series. At the end of the.

third digit series, the RA relay 300 releases and connects ground from conductor I09, over its lower No. 1 back contact the inner upper contacts of relay 313, the lower back contact of the PEA relay 32 I, lead I, the upper No. 2 contacts of the EV relay 403, the upper No. 2 contacts of the CS relay 402, conductor 43! and through the winding of the CI relay of the C digit register 20 to battery, and from conductor I09 over the upper No. 1 back contact of relay 300, the upper No. 3 contacts of the P3 relay 3", lead 2, the upper No. 3 contacts of the EV relay 403, the upper No. 3 contacts of the CS relay 402, conductor 432 and through the winding of the C2 relay of the C digit register 620 to battery. Thus relays CI and C2 of the C digit register 020 have been operated to register the third digit 3. Upon operating, these relays look over their upper contacts to off normal ground conductor I33.

'The progression above-described for controlling the registration of the first three dialed digits continues and it will be noted that with the BS, DS, and Fs relays 40!, 200 and 202 operated together with the OD relay 404, the leads relay 203, strappedpunchings F and DL, conductor 204, the lower No. 3 contacts of the RA! relay 30!, conductor 324, the lower back contact of the DL! relay 100, the upper back contact of the DT relay 10! and through the winding of the DLrelay 102 to battery. As soon as the RA! relay 30! reoperates at the end of the sixth digit series, relay 102 will operate.

Relay 102 upon operating opens the discharge path for condenser 103, extending through resistor 104 and over the upper back contact of relay 102 and establishes a charging path for condenser 103 which may be traced from batfrom battery through its winding, the upper back contact of the DT relay 10!, through the winding of the DL! relay 100, the inner lower contacts of relay 102 and to ground on conductor 204, but the winding of relay being shunted over its lower back contact to ground applied to conductor 324 so long as the RA! relay. 30! remains operated, does not operate in-this locking circuit. If the RA! relay 30! remains operated forthree to five seconds indicative of the fact that the subscriber has not dialed another digit, the voltage across condenser '103 will reach a high enough value to cause the tube 108 to break down across its control gap between the cathodes I03 and 1!! and to thereby establish a circuit for the DT relay 10! from the positive potential source 105, through resistor 106, over theinner upper contacts of relay 102, the inner upper back contact of relay 100, across the main gap of tube 108 between the anode H0 and the cathode 1!! and through the winding of the DT relay 10! to ground on conductor I34, whereupon relay 10! operates and locks over its upper contacts and through resistors H2 and 100 to the source of positive potential 100.

Relay 10! upon operating opens the initial operating and the locking circuits of relay 102 which relay then re eases to deionize the tube 108 and to transfer the condenser 103 from its I thereupon operates, establishes a circuit" from groundover its upper No. 4 contacts, the lower back contact of the MRL relay 520, the upper No. 2 back contact of the BT relay 5i! and conductor 52I to start the timer of the marker connector (not shown); connects battery over its lower No. 2 contacts and conductor 522 for supplying battery to the marker connector for the operation of the register connector relays of the connector and establishes a start circuit from battery over its lower No. 1 contacts, the upper back contact of the MRL, relay 520, the upper No.

3 back contact of the BT relay 5i! and start conductor 523 to operate a register sequence relay in the connector.

The result of this is that an idle marker becomes connected to the originating register over the marker connector and a plurality of control leads are extended from the marker to the register.

Relay 505 at its lower No. 3 contact shunts the inner lower contacts of the TMB relay 502 so that the holding circuit of relay 505 will be independent of relay 502 and at its lower No. 4 back contact opens the locking circuit of TMA relay 503 and the operating circuit of the TMB relay 502 whereupon such relays release to open the charging circuit of condenser 506 associated with the register timing tube 5 and to close I the discharge path for the condenser to thereby recycle the timer which has up to this time been functioning for partial dial timing. In addition, relay 505 also es ablishes a circuit from battery through the winding of the MSTI relay 5I0, the upper No. 2 contacts of relay 505, the upper back contact of the TM relay 5 and to ground over conductor I I4 and relay 5I8 thereupon operates and looks over its upper No. 1 contacts to ground on conductor II4. Relay 5! provides a holding circuit for the RAI reay 30I extending over conductor 325, the lower No. 1 contacts of relay H8 and to ground on conductor I09 so that the digit steering circuits of Fig. 4 will not advance further; at its upper No. 4 back contact opens the pulse lead 5 I9 whereby further pulsing will be ineffective; and establishes a circuit from ground over the upper No. 3 contacts of the ON I relay I24, conductor I35, the lower No. 2 contacts of re ay 5I8, conductor 533, the lower No. 3 contacts of the OD relay 404, conductor 401, the upper No. 1 contacts of the GS relay 203 and through the winding of the G1 relay of the G digit register 260 to battery.

The operated GI relay connects ground to conductor 205 extending over the marker-connector to the marker to inform the marker that the last digit dialed was registered on the F digit register 250. The operated relaysof the A, B, C, D, E, and F registers are also effective to connect ground over their lower contacts to other conductors extending over the marker-connector to the marker to inform the marker of the values of the dialed digits. Other information required by the marker and registered in the originating register is also transmitted at this time to the marker.

If the subscriber does dial a digit before the timing interval is completed, the RAI relay 30I releases, removing ground from conductor 324 thereby removing the shunt from the DLI relay 14 "0 which operates in the locking circuit of the DL relay I02 and terminates timing by removing the positive source of potential I05 from connection with the condenser I03 and opens the circuit from its winding to conductor 324 so that it will not be shunted down when the RAI relay IOI reoperates. Relay I00 also connects; ground from conductor 204, over the lower contacts of the RAI relay 30I, conductor 32 4 and the inner lower contacts of relay 1" to conductor "3 to thereby render effective the circuit for operating the MST relay 505 to summon a marker to complete the desired connection when the RAI relay IOI reoperates at the end of the seventh digit. The additional dialed digit will be registered on the relays of the G digit register 250 in a manner similar to that discussed with respect to the registration of the previously dialed digits.

When the marker has received all of the information from the register for establishing the desired connection and has completed its other functions, then it is ready to establish the connection and informs the register of such fact by connecting ground to conductor 525 extending over the marker-connector to the originating register thereby causing the operation of the RL relay III. Relay II3 upon operating locks over its upper No.1 contacts to ground over the upper No. 6 contacts of the ON relay I 00; at its upper No. 3 and lower No. 1 back contacts opens the tip and ring conductors of the dialing connection to the calling line so that the inductive load included in the dialing connection will not be broken at the cross-point contacts of the switches; and opens the sleeve connection to re lease the dial tone connection. The L relay III now releases but the SR relay I I3 and the LA relay 302 are he'd operated over a circuit which may be traced from battery through their windings, over conductor 325, the upper No. 5 contacts of the MST relay 505, conductor 525, extending to the marker connector, thence returning over conductor 52 I, the upper No. 2 back contact of the BT relay 5", the lower back contact of the MRL relay 520 and to ground over the upper No. 4 con acts of the MST relay 505.

After completing the originating connection to the calling line, the marker connects ground to lead 52'! thereby causing the operat on of the MRL relay 520. Relay 520 upon operating locks over its inner upper contacts to ground over the upper No. 3 contacts of the MST relay 505, opens the start lead 523 to initiate the release of the Register time out As previously stated, the register timing circuit of Fig. 5 measures times for the important,

functions of the register to be completed. If a function is completed in the time allowed, the timer resets itself and measures time for the next function. If the function is not completed in the time allowed, the timer times out and causes the register to take the appropriate ac tion. If the timer times out awaiting the dialing of a first digit it engages a marker and requests a connection to a permanent signal trunk. If it times out awaiting the dialing of other digits, it engages amarker and requests a connection to a partial dial trunk.

The time. out intervals are normally from 20 to 25 seconds but when the load on the office is heavy the timer interval may be reduced to 10 to 17 seconds while awaitin the dialing of the first digit and to 5 to 8 seconds while awaiting the dialing of other digits to thereby reduce the register holding time.

The timer is started to function as previously described upon the operation of the ON relay I immediately after the seizure of the register. As explained previously the P2A relay 004 operates on the second pulse of the first dialed digit. When this relay operates a circuit is established from battery through the winding of the PD relay 500, over the upper No. 2 back contact of the MSTI relay I8, conductor 528, the lower back contact of the DT relay IN, the lower back contact of the DL relay I02, conductor H4 and to ground over the lower No. 3 contacts of the PZA relay 304. The operation of relay 500 is indicative that the subscriber has started dialing. From the time the register is selected until the PD relay 500 operates, the timer measures time. If relay 500 operates before the end of the allotted time interval, it removes a short circuit at its upper No. 2 back contact extending over conductors 303 and 504 from the lower No. 2 contacts of the RAI relay 30I which allows the latter relay to control the timer start conductor 504 until the end of dialing. 'At this time, relay 30I is unoperated since the pulses for the first digit are being counted so that ground is removed from conductor 504 and the TMA and TMB relays 503 and 502 are released to restart the timer.

If, however, the PD relay 500 does not operate during the allotted time, the TM relay 5 will operate as previously described in turn causin the operation of the TMI relay 50I. Relay 50I upon operating looks over its upper No; 2 contacts and over the upper No. 4 back contact of the PD relay 500 to ground on conductor H4 and establishes a circuit from ground over its lower contacts, the lower No. 2 back contact of the PD relay 500 and to battery through the winding of the MST relay 505. Relay 505 thereupon operates and functions in the manner previously described to seize a marker. With relay 50I operated and the PD relay 500 unoperated, ground is connected over the upper No. 1 front contact of relay 50I, the lower No. 1 normal contacts of relay 500 and conductor 529 extended to the marker over the marker-connector to signal the marker that a permanent signal condition has been encountered and that the marker should reroute the call to a permanent signal trunk. If the marker cannot set up the call to a permanent signal trunk, it will attempt to connect the calling line to a common overflow trunk. If the marker does not succeed in doing this, it will operate the BT relay, 5|! and the RL relay H8. Relay I I8 upon operating releases the register and relay 5II upon operating releases the marker.

At the end of each digit series, the RAI relay 30I operates and at its lower No. 2 contacts closes the operating circuit previously traced over which ground was connected to the timer start conductor 504 thereby causing the TMB and TMA relays 502 and 503 to operate. At the beginning of each digit. relay 30I releases to reauaaoo 'move ground from conductor 504 to release relays 502 and 503. After the TMB relay 502 has I released, the TMA relay 503 reoperates to restart the timer. Thus the timer is reset and restarted at the beginning of each digit.

If the subscriber dials too few digits, that is,

dials partially or dials extremely slowly, or the subscriber's line is crossed with a power line or other source of continuous pulses, time out will occur and the TM relay 5 will operate and will cause the operation of the TMI relay I which will lock over its upper No. 2 contacts to ground over the upper No. 4 front contact of the PD relay 500 which latter relay will be locked operated over its lower No. 4 contacts, the inner lower No. 1 contacts of relay 50I and to ground on conductor II4. With the TMI relay 50I operated, a circuit is established from ground over its lower No. 3 contacts and the lower No. 2 front contact of the PD relay 500 for the MST relay 505 thereby causing the operation of the latter relay to seize a marker. Relay 50I also connects ground over its upper No. 1 front contact and the lower No. 1 alternate contacts of the PD relay 500 to conductor 530 extending over the marker-connector to signal the marker that it should proceed to connect the subscriber's line to a partial dial trunk.

If all the digits are dialed in time, the MSTI relay 5I8 will be operated as previously described and will open the operating circuit of the PD relay 500 which will release and shunt out at its upper No. 2 back contact, the lower No. 2 contacts of the RAI relay 30I so that the latter relay will have no further effect on the timer. When the last digit has been dialed, the lower No. 2 contacts of relay 30I will remain closed so that the TMB relay 502 will be operated and the TMA relay 503 locked to the start conductor 504.

Heavy trafl'ic load When the traffic load on the registers be comes heavy, it is desirable to reduce some of the time out intervals in order to avoid as much as possible a shortage of registers due to subscribers dialing before dial tone and thus holding the registers for long permanent signals or partial dial time out intervals and this is accomplished under the control of a group busy circuit common to a plurality of registers.

In its normal or idle condition, when its ONI relay I24 and MB relay I06 are both released, each register of a group establishes a circuit from ground over the upper No. 1 back contact of relay I00, the upper No. 2 back contact of relay I24, through resistor I30, conductor I31, over the upper normal contacts of jack 000, through the upper winding of polarized relay 00I and through the current-limiting ballast lamp 002 to battery. Thus a. plurality of parallel circuits for energizing the upper winding of relay 00l are provided; these parallel circuits being all closed if all registers are idle. Whenever any register is made busy through the operation of its make busy relay I05 or the operation of its ONI relay I24 when seized for service by a marker, its branch of the operating circuit for relay 00I becomes open. If it is desired that relay 00I shall not release until all of the group of registers become busy, then the R punching is not connected and the lower biasing winding of relay "I is therefore ineffective. If. however, it is desired that relay 00I shall release when not more than 1, 2, 3, 4, 5, 6 or '1 r isters are idle. the R punching is cross-connected to punchings I, 2, 8, l, 5, 8 or I, respectively. Thus, for example, if trafflc data is desired when, for example, three or less registers are idle and the R punching is cross-connected to the 3 punching, a current flow is established from battery through lamp 802, resistors 808 and 804, the middle normal contacts of jack 800 through the lower or biasing winding of relay 80! and to ground over the lower normal contacts of jack 800 in the release direction, of such a value as to permit relay 80l to release when three or less 3200-ohm grounds through resistors I88 are connected through the upper winding of relay "I.

When relay 80l releases it establishes a circuit from ground over its left or back contact and through the winding of the D relay 805 to battery. other relays similar to relay 805 would be provided for other groups of registers. When any one of the D relays 805 operates, it establishes a circuit from ground over its upper No. 2 contacts to the start conductor 801, extending to the 60 I. P. M. interrupter circuit; places the H relay 808 under the control of the interrupter circuit and with the H relay 808 unoperated causes the operation of the J relay 808 over a circuit extending from battery through its winding, over the upper No. 1 contacts of re'ay 805 and to ground at the inner upper back contact of relay 808. Each time that ground is supplied to conductor M by the interrupter circuit, a circuit is completed over the upper No. 3 contacts of relay 805 and through the winding of relay 808 to battery and relay 808 operates, locks over its lower contacts to ground on conductor 8"! and connects ground tothe start conductor 801 of the interrupter circuit so that the completion of the cycle of operations will be insured even though all of the associated D relays, such as 805, should release. Relay 809 is slow to release and during its release time, relay 8| I operates in a circuit from battery through its winding, over the contacts of relay 809 and to ground over the inner upper from; contact of relay 808. Relay 8| I thus operates at a rate of once per second and produces ground impulses at its contacts.

At its upper contacts, relay 8l I applies ground pulses over the inner lower contactof the operated D relay 805 to the LD counter 8|2, allocated to the originating registers. Thus the counter of the originating register group corresponding to the operated D relay 805 is operated to record the approximate time in seconds that all the registers of the group are found busy.

Each time the counter M2 is operated, a ground pulse over one of the lower contacts of relay 8 is applied over the lower contacts of the operated D relay 805 and through the upper winding of the E relay 8l3, corresponding to the busy group of originating registers to battery, and such relay operates, looks over its lower winding and inner lower contacts under the control of a key at the master test frame, lights a lamp at that frame and provides a minor a arm for the aisle on which the master test frame is located. Relay 8! also connects ground over its upper contacts to conductor 8 so that if the alarm is transmitted to a distant oiiice this alarm conductor will be a distinctive load indication rather than a minor alarm. When the A switchboard is located in the same building. relay 818 extends its operating ground 18 over its inner upper contacts to the G relay 8|5 which operates and locks under the control of a key at the switchboard and supplies a signal indicating at the switchboard that the group of registers is busy.

When on; of the busy registers of the group becomes idle. the circuit of the allocated D relay. 805 is opened. If a waiting call immediately reseizes this one idle register in the group, the relay 805 is usually reenergiaed before it has time to release due to its slow releasing characteristic. Wh 11 there is no call awaiting the idle register. relay 805 releases stopping further operations of the associated counter 8l2 at one second intervals. If there are no other D relays operated, and the 60 I. P. M. interrupter is in the nongrounded interval, the J relay I09 releases and if in the grounded interval the Hrelay 808 is held operated until the ground interval ends when it releases. A key (not shown) at the master test frame is operated to release the E relay M3 and a key at the A switchboard is operat:.d to release the G relay 8l5.

When the marker has been seized to establish a dial tone connection a route relay therein .ls operated to inform the marker of that fact. Thereafter the marker looks to find an originating register but if the originating registers are all found to be busy relay 'I'BTA in the marker is operated in the manner disclosed in the application of A. J. Busch hereinbefore referred to. With the route relay and relay TBTA operated the group busy circuit becomes operated to reduce the time-out int.rvals of the originating registers. For the purpose of this disclosure the route relay R and the TBTA relays of a marker have been schematically disclosed in the box in Fig. 7 labeled Marker." With the route rzlay I29 and the TBTA relay I30 operated the circuit of the RBI relay H5 is established. Thereupon relay H5 operates and establishes a circuit from ground over its lower contacts, the back contact of RT relay H6 and through the winding of RB! relay III to battery. Relay III thereupon operates and to insure that relay H I is operated, the RBI relay H5 is looked over its upper contacts and the lower No. 2 normal contacts of the RBI relay II I until the RB! relay H1 is operated.

When the momentary application of ground to the winding of the RBI relay ll 5 is removed relay H5 is released if relay III has operated, but relay III is looked over a circuit through upper back contact of the RT relay H6 and the lower No. 2 alternate contacts of relay Hi to ground. During the time that relay H5 is operated, a 220-ohm shunt of cond.nser H8 is established over its inner upper front contact and through resistor H9 and when relay H5 releases a charging circuit is established for condenser H8 extending from ground through the winding of the RT relay H8, resistance I21, over the lower No. 5 front contact of the RB! relay H'I, over the inner upper back contact of relay H5, through cond.nser H8 and resistor I20 to the source 'I2I of positive potential, whereupon the condenser is slowly charged and slowly raises the potential applied from the condenser through resistor I22 to the control cathode I28 of tube I24. After a delay of 9.6 to 17.1 seconds, this potential on the condenser and therefore on the control cathode of tube I24 will be such that the tube will break down across its control gap between cathodes IZ3 and I26 and the tube will become conductive causing a current flow from the source I2! across the cathode-anode gap between cath- 7 l9 ode I25 and anode I26, upper back contact 01' the RBI relay H5, the lower No. 5 front contact 01' the BB2 relay 'II'I, resistor'll'l and to ground through the winding of the RT relay "8. Relay H6 thus becomes en rgized if the RBI relay remains continuously released for this time period. However. if at any time before the tube fires. relay "5 is operated by a group busy indication ground from the marker, cond.nser H8 will'be discharged by placing the 220-ohm resistor H9 in a short circuit around it thereby completely recycling the tube timing. when the RT relay 1| 6 operates, it opens the locking path or the R32 relaylll and causes itsrelease.

Over its six upper contacts, relay Ill when operated connects ground to leads such as 128 thereby completingcircuits for the OVL relays 5| or six originating registers of the busy group. For example, the circuit for relay is completed from conductor I28, over the lower back contact of the MSTI relay ililand through the winding of the OVL relay 5I0 to battery. In. addition, relay Il'l over its lower Nos. 3 and 4 contacts establishes the circuits of a maximum of four other relays each or which, when operated is eiiective to connect ground to twelve other conductors corresponding to conductor I28 ex-- tending to the OVL relays or other registers.

Wh.n the OVL relay ill! of any register operates, for example the register disclosed, it re places resistor 509 through which the condenser 506 of the timer of Fig. 5 usually charges, by either of two resistors 53| or 532 dependent upon whether the PD relay 500 is operated or is not operated. This changcs the time out interval while waiting the dialing of the first digit (relay 500 unoperated) from 20 to 25 seconds to to 17 seconds and changes the partial dial (relay 500 is operated) to 4 to 8 seconds. When the MSTI relay 505 operates at the end or dialing, the OVL relay 510 releas.s so that the other time intervals are unchanged. lhus by shortening the time intervals the holding time or all registers is reduced.

The time intervals for incoming regist-rs which are seized over incoming link circuits from incoming trunks to assist in the termination of incoming calls, are reduced in the same manner through the operation of relays corresponding to the RBI, RB2 and RT relays H5, H1, and H6 except that the circuit for the RBI relay is established from ground over the upper contact of the D relay of a traffic register, similar to that shown in Fig. 8 but allocated to a group of incoming registers. a

What is claimed is: 1

1. In a telephone system, registers arranged in groups, means for seizing a register when idle, means responsive to the seizure of said register to mark said register as busy, group busy means operated when all of the registers of a group are marked busy, means to release said register in response to the complete operation thereof, timing means in said register, means under the control of said timing means to release said register after a predetermined interval, and means under the control of said group busy means to make said timing means effective to release said register after, a shorter predetermined interval.

2. In a telephone system, registers arranged in groups, means for seizing a register when idle, means responsive to the seizure of said register to mark said register as busy, group busy means operated when all of the registers of a group are marked busy, means in said register responsive 'totheimpulsingoi'awantedline designation to register the digits of said designation, means in said register for. measuring the time interval during which a first digit should be registered, means under the control of said timing means to release said register after a predetermined interval, and means under the control or said group busy means to shorten said first time interval whereby said register is rendered available sooner for another call.

3. In a telephone system, registers arranged in groups, means for seizing a register when idle, means responsive to the seizure of said register to mark said register as busy, group busy means operated when all of the r sters of a group are marked busy, means in said register responsive to the impusing of a wanted line designation to register the digits of said designation, means in said register for measuring the time interval during which any digits of a. desired line designation subsequent to the first digit should be registered, means under the control of said timingmeanstoreleasesaidregisterafterapredetermined interval, and means under the control of said group busy means to shorten said first time interval whereby said register is rendered available sooner for another call.

4. In a telephone system, registers arranged in groups, means for seizing a register when idle, means responsive to the seizure of said register to mark said register as busy, oup busy means operated when all of the registers of a group are marked busy, means in said register responsive to the impulsing of a wanted line designation to register the digiis of said designation, timing means including a condenser-resistance network for measuring the time interval during which a first digit should be registered, means under the control of said timing means to release said register after a predetermined interval, and means under the control of said group busy means to reduce the resistance of said resistance-condenser network to shorten said first time interval whereby said register is rendered availableoperated when all of the registers of a group are,

marked busy, means in said register responsive to the impulsing of a wanted line designation to register the digits of said designation, timing means including a condenser-resistance network for measuring the time interval during which any digit of a line designation subsequent to the first digit should be registered, means under the control of said timing means to release said register after a predetermined interval, and means under the control of said group busy means to reduce the resistance of said resistance-condenser network to shorten said first time interval whereby said register is rendered available sooner for another call.

6. In a telephone system, registers arranged in groups, means for seizing a register when idle, means responsiveto the seizure oi'said register to mark said register as busy, group busy means operated when all of the registers of a group are marked busy, means in said register responsive to the impulsing of a wanted line designation to register the digits of said designation, timing means including a condenser-resistance network for measuring a first time interval during. which a first digit should be registered or for measuring a second time interval during which any digit subsequent to the first should be registered, means under the control of said timing means to release said register after a predetermined interval, and means under the control of said group busy means to reduce the resistance of said resistancecondenser network by one value if a delay has occurred in registering a first digit or by a second value if a delay has occurred in registering a subsequent digit to shorten said first or said second time interval whereby said register is rendered available sooner for another call. 7. In a telephone system, registers arranged in groups, means for seizing a register when idle, means responsive to the seizure of said register to mark said register as busy, a group busy relay operated when all of the registers of a group are marked busy, a timing means for maintaining said relay operated for a predetermined interval irrespective of the continuation of the all register busy condition, means to release said register in response to the complete operation thereof, timing means in said register, means under the control of said latter timing means to release said 22 register alter a predetermined interval, and means under the control of said group busy relay to make said latter timing means effective to release said register after a shorter predetermined interval.

JOSEPH W. DEHN. RALPH E. HERSEY. ARTHUR C. MEHRING/ REFERENCES CITED UNITED STATES PATENTS Number Name Date 1,509,434 Kopp Sept. 23, 1924 1,541,386 Polinkowsky June 9, 1925 1,691,410 Richardson Nov. 13, 1928 1,729,854 Nelson Oct. 1, 1929 1,811,146 Richardson June .23, 1931 1,857,833 Baker May 10, 1932 1,874,684 Wright Aug. 30, 1932 2,486,722 Stehlik Nov. 1, 1949 

